CN105038484A - Icing-preventing and impact-resisting coating - Google Patents
Icing-preventing and impact-resisting coating Download PDFInfo
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- CN105038484A CN105038484A CN201510471973.8A CN201510471973A CN105038484A CN 105038484 A CN105038484 A CN 105038484A CN 201510471973 A CN201510471973 A CN 201510471973A CN 105038484 A CN105038484 A CN 105038484A
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Abstract
The invention relates to the field of coatings, in particular to an icing-preventing and impact-resisting coating. The coating is formed by mixing 27-30% of mixed liquor A, 25-30% of mixed liquor B, 10-15% of mixed liquor C and 25-38% of mixed liquor D. The icing-preventing and impact-resisting coating has the advantages of being capable of being used in cold regions and being resistant to high temperature, abrasion, impact, acid and alkali when in use.
Description
Technical field
The present invention relates to paint field, be specifically related to a kind of ice-covering-proof impact-resistant coating.
Background technology
Paint is that one firmly can cover body surface, plays protection, decoration, mark and the chemical mixture coating of other special purposes.China's coating circle more authoritative " coating process " book is definition like this: " coating is a kind of material, and this material can be coated in article surface by different construction technologies, forms adhere well, has some strength, continuous print solid film.The film common name film of such formation, also known as paint film or coating." belonging to organic chemical industry's macromolecular material, the film formed belongs to macromolecular compound type.The classification of the Chemicals of passing through according to the modern times, coating belongs to fine chemical product.Modern coating is progressively becoming the polyfunctional engineering materials of a class, is an important industry in chemical industry.For the coating of beam hanger drilling rod, also do not have special coating in the market, meet the applying working condition of beam hanger drilling rod, high temperature resistant, wear-resisting, shock-resistant, acid-fast alkali-proof also will meet cold condition.
Summary of the invention
In order to solve the problem, the present invention proposes a kind of coating of wear and shock-resistant, can use at cold zone, during use, energy withstand high temperatures, wear-resisting, shock-resistant, simultaneously also can acid-fast alkali-proof.
A kind of ice-covering-proof impact-resistant coating, specifically be that this coating is by A, B, C and D tetra-groups of mixed solutions mix, wherein the parts by weight of component A consist of: E-42 epoxy resin 30-34 part, dibutyl phthalate 12-15 part, pearl powder 3-5 part, chromic oxide 2-3 part, tetramethyl-ammonium nitrate 1-2 part, 196 unsaturated polyester resin 14-18 parts, epoxy acrylate 30-35 part, benzoin dimethylether 6-9 part, antioxidant MB 1-2 part, tributyl citrate 6-8 part, stearic acid 4-5 part, anti-aging agent RD 1-2 part, Microcrystalline Wax 4.5-5.5 part, tributyl tin trichloride 2-3 part, between aminomethylamine 6-9 part, auxiliary agent 5-6 part, dimethylbenzene 10-12 part, butylacetate 10-12 part, the parts by weight of B component consist of: silicone resin 18-20 part, E-12 epoxy resin 9-11 part, phenylformic acid 3-5 part, ethyl acetate 6-8 part, Herba Cymbopogonis Citrari extracting solution 7-9 part, mica powder 3-5 part, defoamer 0.3-0.5 part, fire retardant 0.3-0.5 part, aluminium powder 2-4 part, PAN-based carbon fiber 6-8 part, ethylene glycol butyl ether 6-8 part, urea 1-3 part, Viscoat 295 3-5 part, the parts by weight of component C consist of: Hydroxylated acrylic resin 36-42 part, adhesion promoter 4-5.5 part, color paste composition 32-48 part, wilkinite 4-5.5 part, flow agent 0.4-0.6 part, hexalin acetate 16-18 part, in described color paste composition, the mass ratio of Hydroxylated acrylic resin, defoamer, dispersion agent, wetting agent, toner and methylethylketone is 10:0.5:3:0.5:10:26, component A 27-30%, B component 25-30% when described coating mixes, component C 10-15%, D component 25-38%.
Auxiliary agent in described component A is made up of the raw material of following weight part: clay 9-12, magnesium oxide 3-4, zinc oxide 1-2, bauxitic clay 5-6, vanadium carbide 1-2, TM monex TM2-3, jade 3-4, anilinomethyl triethoxysilane 2-3, dimethyl isophthalate 35-40, Tenox PG 1-2, coix seed oil 2-3, l-Epicatechol 1-2; Its preparation method is sent in calcining furnace and calcine 2-3 hour at 720-740 DEG C clay, bauxitic clay, jade, then takes out, send in the hydrochloric acid soln of 10-15% and soak 2-3 hour, filter, obtain filter residue, clean with clear water, dry, grind to form 400-600 order powder; Gained powder mixes with other remaining component, is heated to 60-70 DEG C, stirring reaction 40-50 minute, and cooling, grinds to form slurry, to obtain final product.
Described component A procedure of processing is first chromic oxide, tributyl citrate, stearic acid, Microcrystalline Wax, auxiliary agent mixing, joins in dimethylbenzene, butyl acetate solvent, is heated to 120-130 DEG C, reaction 3-4 hour; Again material is cooled to 70-85 DEG C, adds dibutyl phthalate, benzoin dimethylether, stirring reaction 3-4 hour; Finally again material is cooled to 50-65 DEG C, adds other leftover materials, after stirring reaction 40-60 minute, be cooled to room temperature, grind to form 20-60 μm of slurry, to obtain final product.
Described B component procedure of processing is by silicone resin, epoxy resin E-12, phenylformic acid, mica powder, fire retardant, aluminium powder, PAN-based carbon fiber, after ethylene glycol butyl ether and urea mix, stir 12-18 minute, stirring velocity is 200-500rpm, after being incubated 10-15 minute at being heated to 150-220 DEG C, continue to be heated to 220-250 DEG C of insulation 5-10 minute, after naturally cooling, obtain mixture one; By ethyl acetate, Herba Cymbopogonis Citrari extracting solution and Viscoat 295 add in mixture one, heated and stirred 40-60 minute at 50-80 DEG C, then add defoamer, continue to stir 5-8 minute, stir, obtain work in-process with the speed of 100-150rpm; After work in-process being ground to 300-400 order, after regulating PH to 6-8, packing obtains corrosion-and high-temp-resistant paint.
Described component C procedure of processing Hydroxylated acrylic resin and adhesion promoter is put in stirrer to be uniformly mixed; Color paste composition is joined in stirrer and is uniformly mixed; Wilkinite and flow agent are slowly joined in stirrer, is uniformly mixed; Adding hexalin acetate stirs until mix both; Wherein, described color paste composition is prepared from by the following method: Hydroxylated acrylic resin, defoamer, dispersion agent and wetting agent are put into and produce in container; Under low rate mixing, toner is slowly added, then rapid stirring; Add methylethylketone, rapid stirring mixes; Mixture is milled until fineness≤5 μm.
Modifying asphalt described in described D component is made up of the raw material of following weight part: pitch 78-84, sulphur 0.4-1.0, Poly Propylene Wax 0.4-0.8, nano diatomite 0.5-1.0, diaminodiphenylmethane 0.3-0.7, gac 1-2, vinyl chloride-vinyl acetate resin 8-12, maleic anhydride 4-6, Potassium aluminum sulfate dodecahydrate 0.3-0.6, tetrahydrofuran (THF) 7-9, zirconium iso-octoate 0.2-0.4, dibenzoyl peroxide 0.05-0.12, sodium lignosulfonate 0.4-0.8, nano-glass scale 0.4-0.7; Preparation method is to melting by asphalt heating; maleic anhydride and dibenzoyl peroxide is slowly added under the protection of nitrogen; temperature is controlled at 170-180 ° of C; modifying asphalt is obtained stir 0.5-1 hour under 600-800 rev/min after; vinyl chloride-vinyl acetate resin, tetrahydrofuran (THF), zirconium iso-octoate, diaminodiphenylmethane, Poly Propylene Wax are mixed and heated to 130-150 ° of C; then will mix with modifying asphalt, then add all the other surplus materialss and with 800-1200 rev/min of lower agitation grinding 1-1.5 hour.
Described D component procedure of processing is dropped in reactor and be heated to 200-250 ° of C vinyl MQ silicone resin, terpolycyantoamino-formaldehyde resin, modifying asphalt, bamboo fibers, acetone, turps, dimethylbenzene, partially phenylenediamine, stirs 2-3 hour after being uniformly mixed by mixture under 600-800 rev/min; Modified abandoned resin sand, asbestos, silica powder, nano aluminium oxide, titanium oxide, tetrabutyl titanate stirring 30-50 minute is added under identical rotating speed, temperature is reduced to 70-90 ° of C, add all the other remaining compositions again, stir in reactor, disperse, material after dispersion is added to grinding distribution in sand mill even, and stirs 20-30 minute under 1200-1400 rev/min; Finely dispersed material is added in filter and filters, after filtration, obtain the material that fineness is 20-40 μm, by the material package after filtration.
Modified abandoned resin sand described in described D component, discarded resin sand is added in shakeout to carry out knockout by preparation method, the metal sundries on removing surface and dirt settling, again by the effect of waste resin sand by oscillator, whizzer, the binding agent on removing surface, again antiquated sand is worn into 400-600 order fine powder by ball mill, add the nano-attapulgite of antiquated sand weight 12%, 5% nano zine oxide, 0.4% Sodium hexametaphosphate 99, the alkylphenol polyoxyethylene of 0.2%, the silicon sol of 8% and 0.5-1% silane coupling agent KH560 mixed grinding evenly.
When described ice-covering-proof impact-resistant coating uses, first component C and D component according to ratio mix and blend 10-20 minute, then component A to be added again, add lasting 8-10 minute while stirring to complete, finally add B component Keep agitation 5-6 minute, after having mixed, in 1 hour, brushing terminates.
Advantage of the present invention can use at cold zone, and during use, energy withstand high temperatures, wear-resisting, shock-resistant, simultaneously also can acid-fast alkali-proof.
Embodiment
The present invention is illustrated further by following unrestriced embodiment, but needs to understand described embodiment only in order to the present invention, and is not used to limit the scope of the invention.
Embodiment 1
Adopt following formula:
Table 1
Adopted by obtained coating conventional constructional method such as brushing, obliterating, the construction of manual roller, air gun or airless spray gun spraying, electrostatic spraying, thermospray, roller coat or dip-coating etc. to be coated on beam hanger drilling rod, its performance is as shown in table 2.
Table 2
| Project | Requirement | Result |
| Abrasion resistance | Do the wash and be greater than 5000 times | Unchanged |
| Elongation at break % | Be greater than 200 | Up to standard |
| Tensile strength Mpa | Be greater than 1.0 | Up to standard |
| High temperature resistant | 200 DEG C continue 12 hours | Unchanged |
| Acidproof | 10%H 2SO 4 | Unchanged |
| Alkaline-resisting | 10%NaOH | Unchanged |
| Wear-resisting | < 20mg/1000 turns TABCS17 | Unchanged |
| Shock-resistant | Impact 10 joules, 500 times | Unchanged |
| Cold resistant | Under rime condition, keep 12 h | Without freezing |
Embodiment 2
Adopt following formula:
Table 3
| Material | Mass percent/% |
| Component A | 28 |
| B component | 26 |
| Component C | 10 |
| D component | 36 |
Adopted by obtained coating conventional constructional method such as brushing, obliterating, the construction of manual roller, air gun or airless spray gun spraying, electrostatic spraying, thermospray, roller coat or dip-coating etc. to be coated on beam hanger drilling rod, its performance is as shown in table 4.
Table 4
| Project | Requirement | Result |
| Abrasion resistance | Do the wash and be greater than 5000 times | Unchanged |
| Elongation at break % | Be greater than 200 | Up to standard |
| Tensile strength Mpa | Be greater than 1.0 | Up to standard |
| High temperature resistant | 200 DEG C continue 12 hours | Unchanged |
| Acidproof | 10%H 2SO 4 | Unchanged |
| Alkaline-resisting | 10%NaOH | Unchanged |
| Wear-resisting | < 20mg/1000 turns TABCS17 | Unchanged |
| Shock-resistant | Impact 10 joules, 500 times | Unchanged |
| Cold resistant | Under rime condition, keep 12 h | Without freezing |
Embodiment 3
Adopt following formula:
Table 5
| Material | Mass percent/% |
| Component A | 29 |
| B component | 25 |
| Component C | 11 |
| D component | 35 |
Adopted by obtained coating conventional constructional method such as brushing, obliterating, the construction of manual roller, air gun or airless spray gun spraying, electrostatic spraying, thermospray, roller coat or dip-coating etc. to be coated on beam hanger drilling rod, its performance is as shown in table 6.
Table 6
| Project | Requirement | Result |
| Abrasion resistance | Do the wash and be greater than 5000 times | Unchanged |
| Elongation at break % | Be greater than 200 | Up to standard |
| Tensile strength Mpa | Be greater than 1.0 | Up to standard |
| High temperature resistant | 200 DEG C continue 12 hours | Unchanged |
| Acidproof | 10%H 2SO 4 | Unchanged |
| Alkaline-resisting | 10%NaOH | Unchanged |
| Wear-resisting | < 20mg/1000 turns TABCS17 | Unchanged |
| Shock-resistant | Impact 10 joules, 500 times | Unchanged |
| Cold resistant | Under rime condition, keep 12 h | Without freezing |
Embodiment 4
Adopt following formula:
Table 7
| Material | Mass percent/% |
| Component A | 30 |
| B component | 25 |
| Component C | 10 |
| D component | 35 |
Adopted by obtained coating conventional constructional method such as brushing, obliterating, the construction of manual roller, air gun or airless spray gun spraying, electrostatic spraying, thermospray, roller coat or dip-coating etc. to be coated on beam hanger drilling rod, its performance is as shown in table 6.
Table 8
| Project | Requirement | Result |
| Abrasion resistance | Do the wash and be greater than 5000 times | Unchanged |
| Elongation at break % | Be greater than 200 | Up to standard |
| Tensile strength Mpa | Be greater than 1.0 | Up to standard |
| High temperature resistant | 200 DEG C continue 12 hours | Unchanged |
| Acidproof | 10%H 2SO 4 | Unchanged |
| Alkaline-resisting | 10%NaOH | Unchanged |
| Wear-resisting | < 20mg/1000 turns TABCS17 | Unchanged |
| Shock-resistant | Impact 10 joules, 500 times | Unchanged |
| Cold resistant | Under rime condition, keep 12 h | Without freezing |
Embodiment 5
Adopt following formula:
Table 9
| Material | Mass percent/% |
| Component A | 27 |
| B component | 25 |
| Component C | 13 |
| D component | 35 |
Adopted by obtained coating conventional constructional method such as brushing, obliterating, the construction of manual roller, air gun or airless spray gun spraying, electrostatic spraying, thermospray, roller coat or dip-coating etc. to be coated on beam hanger drilling rod, its performance is as shown in table 6.
Table 10
| Project | Requirement | Result |
| Abrasion resistance | Do the wash and be greater than 5000 times | Unchanged |
| Elongation at break % | Be greater than 200 | Up to standard |
| Tensile strength Mpa | Be greater than 1.0 | Up to standard |
| High temperature resistant | 200 DEG C continue 12 hours | Unchanged |
| Acidproof | 10%H 2SO 4 | Unchanged |
| Alkaline-resisting | 10%NaOH | Unchanged |
| Wear-resisting | < 20mg/1000 turns TABCS17 | Unchanged |
| Shock-resistant | Impact 10 joules, 500 times | Unchanged |
| Cold resistant | Under rime condition, keep 12 h | Without freezing |
Embodiment 6
Adopt following formula:
Table 11
| Material | Mass percent/% |
| Component A | 30 |
| B component | 30 |
| Component C | 15 |
| D component | 25 |
Adopted by obtained coating conventional constructional method such as brushing, obliterating, the construction of manual roller, air gun or airless spray gun spraying, electrostatic spraying, thermospray, roller coat or dip-coating etc. to be coated on beam hanger drilling rod, its performance is as shown in table 6.
Table 12
| Project | Requirement | Result |
| Abrasion resistance | Do the wash and be greater than 5000 times | Unchanged |
| Elongation at break % | Be greater than 200 | Up to standard |
| Tensile strength Mpa | Be greater than 1.0 | Up to standard |
| High temperature resistant | 200 DEG C continue 12 hours | Unchanged |
| Acidproof | 10%H 2SO 4 | Unchanged |
| Alkaline-resisting | 10%NaOH | Unchanged |
| Wear-resisting | < 20mg/1000 turns TABCS17 | Unchanged |
| Shock-resistant | Impact 10 joules, 500 times | Unchanged |
| Cold resistant | Under rime condition, keep 12 h | Without freezing |
Claims (9)
1. an ice-covering-proof impact-resistant coating, it is characterized in that this coating is by A, B, C and D tetra-groups of mixed solutions mix, wherein the parts by weight of component A consist of: E-42 epoxy resin 30-34 part, dibutyl phthalate 12-15 part, pearl powder 3-5 part, chromic oxide 2-3 part, tetramethyl-ammonium nitrate 1-2 part, 196 unsaturated polyester resin 14-18 parts, epoxy acrylate 30-35 part, benzoin dimethylether 6-9 part, antioxidant MB 1-2 part, tributyl citrate 6-8 part, stearic acid 4-5 part, anti-aging agent RD 1-2 part, Microcrystalline Wax 4.5-5.5 part, tributyl tin trichloride 2-3 part, between aminomethylamine 6-9 part, auxiliary agent 5-6 part, dimethylbenzene 10-12 part, butylacetate 10-12 part, the parts by weight of B component consist of: silicone resin 18-20 part, E-12 epoxy resin 9-11 part, phenylformic acid 3-5 part, ethyl acetate 6-8 part, Herba Cymbopogonis Citrari extracting solution 7-9 part, mica powder 3-5 part, defoamer 0.3-0.5 part, fire retardant 0.3-0.5 part, aluminium powder 2-4 part, PAN-based carbon fiber 6-8 part, ethylene glycol butyl ether 6-8 part, urea 1-3 part, Viscoat 295 3-5 part, the parts by weight of component C consist of: Hydroxylated acrylic resin 36-42 part, adhesion promoter 4-5.5 part, color paste composition 32-48 part, wilkinite 4-5.5 part, flow agent 0.4-0.6 part, hexalin acetate 16-18 part, in described color paste composition, the mass ratio of Hydroxylated acrylic resin, defoamer, dispersion agent, wetting agent, toner and methylethylketone is 10:0.5:3:0.5:10:26, component A 27-30%, B component 25-30% when described coating mixes, component C 10-15%, D component 25-38%.
2. the ice-covering-proof impact-resistant coating of one according to claim 1, is characterized in that the auxiliary agent in described component A is made up of the raw material of following weight part: clay 9-12, magnesium oxide 3-4, zinc oxide 1-2, bauxitic clay 5-6, vanadium carbide 1-2, TM monex TM2-3, jade 3-4, anilinomethyl triethoxysilane 2-3, dimethyl isophthalate 35-40, Tenox PG 1-2, coix seed oil 2-3, l-Epicatechol 1-2; Its preparation method is sent in calcining furnace and calcine 2-3 hour at 720-740 DEG C clay, bauxitic clay, jade, then takes out, send in the hydrochloric acid soln of 10-15% and soak 2-3 hour, filter, obtain filter residue, clean with clear water, dry, grind to form 400-600 order powder; Gained powder mixes with other remaining component, is heated to 60-70 DEG C, stirring reaction 40-50 minute, and cooling, grinds to form slurry, to obtain final product.
3. the ice-covering-proof impact-resistant coating of one according to claim 1, it is characterized in that described component A procedure of processing is first chromic oxide, tributyl citrate, stearic acid, Microcrystalline Wax, auxiliary agent mixing, join in dimethylbenzene, butyl acetate solvent, be heated to 120-130 DEG C, reaction 3-4 hour; Again material is cooled to 70-85 DEG C, adds dibutyl phthalate, benzoin dimethylether, stirring reaction 3-4 hour; Finally again material is cooled to 50-65 DEG C, adds other leftover materials, after stirring reaction 40-60 minute, be cooled to room temperature, grind to form 20-60 μm of slurry, to obtain final product.
4. the ice-covering-proof impact-resistant coating of one according to claim 1, is characterized in that described B component procedure of processing is by silicone resin, epoxy resin E-12, phenylformic acid, mica powder, fire retardant, aluminium powder, PAN-based carbon fiber, after ethylene glycol butyl ether and urea mix, stirs 12-18 minute, stirring velocity is 200-500rpm, after being incubated 10-15 minute at being heated to 150-220 DEG C, continuing to be heated to 220-250 DEG C of insulation 5-10 minute, after naturally cooling, obtain mixture one; By ethyl acetate, Herba Cymbopogonis Citrari extracting solution and Viscoat 295 add in mixture one, heated and stirred 40-60 minute at 50-80 DEG C, then add defoamer, continue to stir 5-8 minute, stir, obtain work in-process with the speed of 100-150rpm; After work in-process being ground to 300-400 order, after regulating PH to 6-8, packing obtains corrosion-and high-temp-resistant paint.
5. the ice-covering-proof impact-resistant coating of one according to claim 1, is characterized in that described component C procedure of processing Hydroxylated acrylic resin and adhesion promoter is put in stirrer to be uniformly mixed; Color paste composition is joined in stirrer and is uniformly mixed; Wilkinite and flow agent are slowly joined in stirrer, is uniformly mixed; Adding hexalin acetate stirs until mix both; Wherein, described color paste composition is prepared from by the following method: Hydroxylated acrylic resin, defoamer, dispersion agent and wetting agent are put into and produce in container; Under low rate mixing, toner is slowly added, then rapid stirring; Add methylethylketone, rapid stirring mixes; Mixture is milled until fineness≤5 μm.
6. the ice-covering-proof impact-resistant coating of one according to claim 1, is characterized in that modifying asphalt described in described D component is made up of the raw material of following weight part: pitch 78-84, sulphur 0.4-1.0, Poly Propylene Wax 0.4-0.8, nano diatomite 0.5-1.0, diaminodiphenylmethane 0.3-0.7, gac 1-2, vinyl chloride-vinyl acetate resin 8-12, maleic anhydride 4-6, Potassium aluminum sulfate dodecahydrate 0.3-0.6, tetrahydrofuran (THF) 7-9, zirconium iso-octoate 0.2-0.4, dibenzoyl peroxide 0.05-0.12, sodium lignosulfonate 0.4-0.8, nano-glass scale 0.4-0.7; Preparation method is to melting by asphalt heating; maleic anhydride and dibenzoyl peroxide is slowly added under the protection of nitrogen; temperature is controlled at 170-180 ° of C; modifying asphalt is obtained stir 0.5-1 hour under 600-800 rev/min after; vinyl chloride-vinyl acetate resin, tetrahydrofuran (THF), zirconium iso-octoate, diaminodiphenylmethane, Poly Propylene Wax are mixed and heated to 130-150 ° of C; then will mix with modifying asphalt, then add all the other surplus materialss and with 800-1200 rev/min of lower agitation grinding 1-1.5 hour.
7. the ice-covering-proof impact-resistant coating of one according to claim 1, it is characterized in that described D component procedure of processing is dropped in reactor and be heated to 200-250 ° of C vinyl MQ silicone resin, terpolycyantoamino-formaldehyde resin, modifying asphalt, bamboo fibers, acetone, turps, dimethylbenzene, partially phenylenediamine, after being uniformly mixed by mixture, under 600-800 rev/min, stir 2-3 hour; Modified abandoned resin sand, asbestos, silica powder, nano aluminium oxide, titanium oxide, tetrabutyl titanate stirring 30-50 minute is added under identical rotating speed, temperature is reduced to 70-90 ° of C, add all the other remaining compositions again, stir in reactor, disperse, material after dispersion is added to grinding distribution in sand mill even, and stirs 20-30 minute under 1200-1400 rev/min; Finely dispersed material is added in filter and filters, after filtration, obtain the material that fineness is 20-40 μm, by the material package after filtration.
8. the ice-covering-proof impact-resistant coating of one according to claim 1, it is characterized in that modified abandoned resin sand described in described D component, discarded resin sand is added in shakeout to carry out knockout by preparation method, the metal sundries on removing surface and dirt settling, again waste resin sand is passed through oscillator, the effect of whizzer, the binding agent on removing surface, again antiquated sand is worn into 400-600 order fine powder by ball mill, add the nano-attapulgite of antiquated sand weight 12%, the nano zine oxide of 5%, the Sodium hexametaphosphate 99 of 0.4%, the alkylphenol polyoxyethylene of 0.2%, the silicon sol of 8% and the silane coupling agent KH560 mixed grinding of 0.5-1% are evenly.
9. the ice-covering-proof impact-resistant coating of one according to claim 1, when it is characterized in that described ice-covering-proof impact-resistant coating uses, first component C and D component according to ratio mix and blend 10-20 minute, again component A is added again, add lasting 8-10 minute while stirring to complete, finally add B component Keep agitation 5-6 minute, after having mixed, in 1 hour, brushing terminates.
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| CN110793840A (en) * | 2019-11-30 | 2020-02-14 | 天津大学 | Quick heating device for inflammable gas sealing environment in mechanical test |
| CN110793840B (en) * | 2019-11-30 | 2024-06-11 | 天津大学 | Quick heating device for inflammable gas sealing environment in mechanical test |
| CN115612400A (en) * | 2022-12-20 | 2023-01-17 | 江苏威航节能科技有限公司 | Wear-resistant and anti-scouring coating and preparation method thereof |
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